Silent chain

ABSTRACT

String vibration is reduced without causing friction loss. A silent chain is comprised of a multiple number of link plates, each of which has a pair of tooth portions and pin holes and which are laminated laterally and longitudinally and guide plates which are arranged at outermost positions of the link plates. The link plates and the guide plates are connected by connecting pins. In this construction, some of the guide plates are made heavier than that of other guide plates and are irregularly mixed in a longitudinal direction of the chain. Thus, the natural frequency can be changed in an arbitrary chain span and string vibration may be reduced without causing friction loss.

REFERENCE TO RELATED APPLICATIONS

This application claims an invention which was disclosed in Japaneseapplication No. 2005-281751, filed Sep. 28, 2005, entitled “SILENTCHAIN”. The benefit under 35 USC §119(a) of the Japanese application ishereby claimed, and the aforementioned application is herebyincorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a silent chain in which multiple linkplates each having a pair of teeth and pin apertures are interleaved inthe longitudinal and lateral directions and interconnected to each otherby the connecting pins, and more particularly, to an improvement of thestructure of the silent chain to decrease the chordal oscillation.

2. Description of Related Art

Silent chains are used as timing chains for automobiles, motorcycles,and the like. A silent chain is typically comprised of multiple linkplates each having a pair of teeth and pin apertures and pivotablyconnected to each other by the connecting pins inserted into the pinapertures.

During operation of the silent chain, chordal oscillation that generatesin the chain span between the driving and driven sprockets is one of thecauses of noise occurrences. Therefore, various efforts have been madeto reduce such chordal oscillation.

Japanese patent application laying-open publication No. 63-219940 showsa silent chain with two types of leaf springs of different spring ratesthat are inserted between the adjacent link plates of the guide rows andthat are randomly disposed in the longitudinal direction .

In this case, biasing forces generated by the leaf springs and actingbetween the adjacent link plates in the lateral direction vary randomlyin the longitudinal direction. Thereby, bending resistance of the chainspan between the driving sprocket and the driven sprocket varysuccessively. As a result, eigenfrequency of the chain span varysuccessively and chordal oscillation of the chain span can be decreased.

However, in the prior art silent chain, the biasing forces by the leafsprings act between the adjacent link plates at all times duringoperation. Therefore, there is a disadvantage that it has a considerablefriction loss during operation which causes a decrease in powertransmission efficiency of the chain.

The present invention is directed to providing a silent chain that candecrease the chordal oscillation without causing the frictional loss.

SUMMARY OF THE INVENTION

A silent chain according to one aspect of the present invention includesa plurality of link plates pivotably connected to each other viaconnecting pins and a plurality of guide plates. The guide plates areformed of at least two types of guide plates of different weight thatare disposed at a random pattern in the longitudinal direction.

According to the first aspect of the present invention, since at leasttwo types of guide plates of different weight are disposed at a randompattern in the longitudinal direction, the weight of the chain spanbetween the drive and driven sprockets varies successively duringoperation and eigenfrequency of the chain span thus varies successively.Thereby, occurrence of the resonance can be restrained and chordaloscillation of the chain span can be decreased. In this case, since onlythe weight of the guide plates needs to be changed a decrease in thechordal oscillation can be achieved without causing frictional loss. Theweight of the guide plates may be made different by altering at leastone of the geometric configurations, thicknesses, and materials. Also,the geometric configurations of the guide plates may be made differentby altering the shapes of the backside surfaces.

A silent chain according to a second aspect of the present inventionincludes a plurality of link plates pivotably connected to each othervia connecting pins. The link plates are formed of at least two types oflink plates of different weight that are disposed at a random pattern inthe longitudinal direction.

According to the second aspect of the present invention, since at leasttwo types of link plates of different weight are disposed at a randompattern in the longitudinal direction, the weight of the chain spanbetween the drive and driven sprockets varies successively duringoperation and eigenfrequency of the chain span thus varies successively.Thereby, occurrence of the resonance can be restrained and chordaloscillation of the chain span can be decreased. In this case, since onlythe weight of the link plates needs to be changed a decrease in thechordal oscillation can be achieved without causing frictional loss.

The weight of the link plates may be made different by altering at leastone of the geometric configurations, thicknesses, and materials. Also,the geometric configurations of the link plates may be made different byaltering the shapes of the backside surfaces. A silent chain accordingto a third aspect of the present invention includes a plurality of linkplates pivotably connected to each other via connecting pins. Theconnecting pins are formed of at least two types of connecting pins ofdifferent weight that are disposed at a random pattern in thelongitudinal direction.

According to the third aspect of the present invention, since at leasttwo types of connecting pins of different weight are disposed at arandom pattern in the longitudinal direction, the weight of the chainspan between the drive and driven sprockets varies successively duringoperation and eigenfrequency of the chain span thus varies successively.Thereby, occurrence of the resonance can be restrained and chordaloscillation of the chain span can be decreased. In this case, since onlythe weight of the connecting pins needs to be changed a decrease in thechordal oscillation can be achieved without causing frictional loss.

The weight of the connecting pins may be made different by altering atleast one of the cross sectional shapes, diameters, lengths andmaterials.

A silent chain according to a fourth aspect of the present inventionincludes a plurality of link plates pivotably connected to each othervia connecting pins. At the ends of the connecting pins are fixedlyattached washers. The washers are disposed at a random pattern in thelongitudinal direction.

According to the fourth aspect of the present invention, since thewashers are disposed at a random pattern in the longitudinal direction,the weight of the chain span between the drive and driven sprocketsvaries successively during operation and eigenfrequency of the chainspan thus varies successively. Thereby, occurrence of the resonance canbe restrained and chordal oscillation of the chain span can bedecreased. In this case, since only the arrangement of the washers needsto be changed a decrease in the chordal oscillation can be achievedwithout causing frictional loss.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a top plan view of a portion of a silent chain according to afirst embodiment of the present invention.

FIG. 2 is a front elevational view of the silent chain of FIG. 1.

FIG. 3 is an enlarged front elevational view of a first guide plate thatconstitutes the silent chain of FIG. 1.

FIG. 4 is an enlarged front elevational view of a second guide platethat constitutes the silent chain of FIG. 1.

FIG. 5 is an enlarged front elevational view of a first link plate thatconstitutes a silent chain according to a second embodiment of thepresent invention.

FIG. 6 is an enlarged front elevational view of a second link plate thatconstitutes the silent chain according to the second embodiment of thepresent invention.

FIG. 7 is a top plan view of a portion of a silent chain according to afourth embodiment of the present invention.

FIG. 8 is a front elevational view of the silent chain of FIG. 7.

DETAILED DESCRIPTION OF THE INVENTION

FIGS. 1 to 4 illustrate a first embodiment of the present invention. Asshown in FIGS. 1 and 2, a silent chain 1 is composed of a plurality oflink plates 2 interleaved in the lateral and longitudinal directions andpivotably connected by connecting pins 3 and a plurality of first andsecond guide plates 4, 4′ disposed on the outermost sides of the silentchain 1.

The silent chain 1 is also composed of a plurality of guide rows 5 thatare formed of the first guide plates 4 and the link plates 2 disposed atthe same longitudinal position as the first guide plate 4, a pluralityof guide rows 5′ that are formed of the second guide plates 4′ and thelink plates 2 disposed at the same longitudinal position as the secondguide plate 4′, and a plurality of link rows 6 that are formed of onlythe link plates 2 and that are disposed between the adjacent guide rows5, 5′. The guide rows 5, 5′ and the link rows 6 are arranged alternatelyin the longitudinal direction. Also, the first and second guide plates4, 4′ are disposed at a random or irregular pattern in the longitudinaldirection.

The link plate 2 has a pair of pin apertures 21 and a pair of teeth 22.A connecting pin 3 is inserted into each of the pin apertures 21. Eachof the teeth 22 is formed of an inside flank 22 a and an outside flank22 b that engage with sprocket teeth (not shown).

As shown in FIG. 3, the first guide plate 4 has a pair of pin apertures41, a crotch portion 43, and a backside surface 44. An end of theconnecting pin 3 is inserted into each of the pin apertures 41 andfixedly attached thereto. The crotch portion 43 preferably extends belowthe upper edge portion of each of the pin apertures 41. The backsidesurface 44 is concave in shape.

As shown in FIG. 4, the second guide plate 4′ has a pair of pinapertures 41, a crotch portion 43, and a backside surface 44′. As withthe first guide plate 4, an end of the connecting pin 3 is inserted intoeach of the pin apertures 41 and fixedly attached thereto, and thecrotch portion 43 extends below the upper edge portion of each of thepin apertures 41. The backside surface 44′ is flat in shape.Alternatively, the backside surface 44′ may be convex in shape as shownin a dash-and-dot-line.

Therefore, in this case, the guide plate 4′ is heavier than the guideplate 4 and these guide plates 4, 4′ are arranged at a random orirregular pattern in the longitudinal direction.

In such a manner, by arranging two types of the guide plates 4, 4′ ofdifferent weight at a random pattern in the longitudinal direction, theweight of the chain span between the drive and driven sprockets variessuccessively during operation and eigenfrequency of the chain span thusvaries successively. Thereby, occurrence of the resonance can berestrained and chordal oscillation of the chain span can be decreased.In this case, since only the weight of the guide plates needs to bechanged a decrease in the chordal oscillation can be achieved withoutcausing frictional loss.

FIGS. 5 and 6 illustrate a second embodiment of the present invention.In these drawings, like reference numbers indicate identical orfunctionally similar elements.

In the above-mentioned first embodiment, the weight of the guide platesvaries at a random pattern in the longitudinal direction bydifferentiating the shapes of the backside surfaces of the guide plates,but in the second embodiment, the weight of the link rows or guide rowsvaries at a random pattern in the longitudinal direction bydifferentiating the shapes of the backside surfaces of the link plates.

The backside surface 24 of the first link plate 2 is concave in shape asshown in FIG. 5, whereas the backside surface 24′ of the second linkplate 2′ is convex in shape as shown in FIG. 6.

Therefore, in this case, the link plate 24′ is heavier than the linkplate 24 and the link rows or guide rows formed of these link plates 24,24′ are arranged at a random or irregular pattern in the longitudinaldirection.

In such a manner, by arranging the link rows or guide rows formed of twotypes of the link plates 24, 24′ of different weight at a random patternin the longitudinal direction, the weight of the chain span between thedrive and driven sprockets varies successively during operation andeigenfrequency of the chain span thus varies successively. Thereby,occurrence of the resonance can be restrained and chordal oscillation ofthe chain span can be decreased. In this case, since only the weight ofthe link plates needs to be changed a decrease in the chordaloscillation can be achieved without causing frictional loss.

In the above-mentioned first and second embodiments, the shapes of thebackside surfaces of the guide plates or the link plates are madedifferent in the longitudinal direction, but in a third embodiment (notshown), the weight of the connecting pins are made different in thelongitudinal direction.

The weight of the connecting pins is made different by altering one ofthe cross sectional shapes, diameters, lengths and materials.

In such a manner, by arranging two types of connecting pins of differentweight at a random pattern in the longitudinal direction, the weight ofthe chain span between the drive and driven sprockets variessuccessively during operation and eigenfrequency of the chain span thusvaries successively. Thereby, occurrence of the resonance can berestrained and chordal oscillation of the chain span can be decreased.In this case, since only the weight of the connecting pins needs to bechanged a decrease in the chordal oscillation can be achieved withoutcausing frictional loss.

FIGS. 7 and 8 illustrate a fourth embodiment of the present invention.In these drawings, like reference numbers indicate identical orfunctionally similar elements.

In the fourth embodiment, washers 30 are fixedly attached to the ends ofthe connecting pins 3. The locations of the washers 30 are arranged at arandom pattern in the longitudinal direction.

In this case as well, the weight of the chain span between the drive anddriven sprockets varies successively during operation and eigenfrequencyof the chain span thus varies successively. Thereby, occurrence of theresonance can be restrained and chordal oscillation of the chain spancan be decreased.

In the above-mentioned first to third embodiments, two types of guideplates, link plates, or connecting pins of different weight were used,but the present invention can be applied to the case in which three types or more of guide plates, link plates, or connecting pins of differentweight are used.

In the above-mentioned first to third embodiments, the guide platesonly, link plates only, or the connecting pins only are made differentin the longitudinal direction, but any two or more of them may be madedifferent in the longitudinal direction.

In the above-mentioned first and second embodiments, the shapes of thebackside surfaces of the guide plates or the link plates were madedifferent in order to differentiate the weight of the guide plates orthe link plates, but the shapes of the other portions of the guideplates or the link plates may be made different. Alternatively, thethicknesses or materials of the guide plates or the link plates otherthan the plane shape may be made different in order to differentiate theweight of the guide plates or the link plates. In the alternative, someof the different shapes, thicknesses, or materials may be combined witheach other.

Accordingly, it is to be understood that the embodiments of theinvention herein described are merely illustrative of the application ofthe principles of the invention. Reference herein to details of theillustrated embodiments is not intended to limit the scope of theclaims, which themselves recite those features regarded as essential tothe invention.

1. A silent chain comprising a multiple number of link plates, each ofwhich has a pair of tooth portions and pin holes, which are laminatedlaterally and longitudinally to be connected with connecting pins in apivotable manner, and for which guide plates are arranged, wherein atleast two types of guide plates having a different weight from eachother, are irregularly mixed in a longitudinal direction of the chain.2. The silent chain of claim 1, wherein each of the guide plates havinga different weight from each other is different from each other in planeshape, plate thickness, or material.
 3. The silent chain of claim 2,wherein the plane of each of the guide plates is different from eachother in a back face shape.
 4. A silent chain comprising a multiplenumber of link plates, each of which has a pair of tooth portions andpin holes and which are laminated laterally and longitudinally to beconnected with connecting pins in a pivotable manner, wherein at leasttwo types of link plates having a different weight from each other areirregularly mixed in a longitudinal direction of the chain.
 5. Thesilent chain of claim 4, wherein each of the link plates having adifferent weight from each other is different from each other in planeshape, plate thickness, or material.
 6. The silent chain of claim 5,wherein the plane of each of the link plates is different from eachother in a back face shape.
 7. A silent chain comprising a multiplenumber of link plates, each of which has a pair of tooth portions andpin holes and which are laminated laterally and longitudinally to beconnected with connecting pins in a pivotable manner, wherein at leasttwo types of connecting pins having a different weight from each otherare irregularly mixed in a longitudinal direction of the chain.
 8. Thesilent chain of claim 7, wherein each of the connecting pins having adifferent weight from each other is different from each other incross-sectional shape, diameter, or length.
 9. A silent chain comprisinga multiple number of link plates, each of which has a pair of toothportions and pin holes and which are laminated laterally andlongitudinally to be connected with connecting pins in a pivotablemanner, wherein washers are fixed to end portions of the connecting pinsand the washers are irregularly positioned in a longitudinal directionof the chain.